The whole atmospheric system is so complicated that it never changes in the same way.
Not exact matches
In an essay in BioScience magazine, the Wildlife Conservation Society's Douglas Sheil and co-authors discuss the «biotic pump» hypothesis of Russian researchers Anatassia Makarieva and Victor Gorshov, which contends that rainforests attract water vapor, leading to rain, lower local
atmospheric pressure and a feedback loop that keeps the
whole system going.
From what I can tell, the game nails the unsettling tone and hauntingly
atmospheric music of its inspirational source material, and the leveling
system adds a nice layer of depth and nuance to the
whole experience.
Are these two mechanisms sufficient for driving the
atmospheric pressure
system, ecological and biological
systems of the
whole planet to the best?
That allows us to extrapolate theories as to how it MIGHT change the
atmospheric system as a
whole.
It is most prominent in the North Pacific, where fluctuations in the strength of the winter Aleutian Low pressure
system co-vary with North Pacific sea surface temperatures, and are linked to decadal variations in
atmospheric circulation, sea surface temperatures and ocean circulation throughout the
whole Pacific Basin.
Why is it that revolutionary changes in our social / economic / political
system are greeted with enthusiasm, as «progress», and yet the rather small increase on
atmospheric [CO2], a byproduct of cheap transport and electricity that underpins our
whole way of life, is treated as a disaster?
Rather than questioning the primary role of the
atmospheric CO2, our modelling results allow us to put forward that the
atmospheric CO2 is not the
whole story and that, owing to the overwhelming effect and interplay between the paleogeography, the water cycle and the seasonal response, the climate
system may undergo subtle climatic changes (as the 4 °C global warming simulated here between the Aptian and the Maastrichtian runs).
The large variability of top of atmosphere energy dynamics that is related — neglecting solar variability — to emergent properties of ocean and
atmospheric circulation in the climate
system as a
whole.
The
whole is a complex and dynamic
system triggered by changes in
atmospheric pressure zones at both the north and south poles.
The result for the
system as a
whole is
atmospheric super heating in the absence of radiative gases.
The debate is not how gases behave in isolation in laboratory conditions but rather how the
atmospheric system behaves as a
whole with all its complexity and nuances, and it is because of this that many are skeptical as to whether in reality there is any significant «greenhouse» effect.
Temperature changes are one of the more obvious and easily measured changes in climate, but
atmospheric moisture, precipitation and
atmospheric circulation also change, as the
whole system is affected.